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Convert from String to either LocalDateTime or ZonedDateTime

Hi I want to convert String value 2020-12-16T19:20:30+01:00 UTC to either LocalDateTime or ZonedDateTime in java
I tried solution:
DateTimeFormatter dtf = DateTimeFormatter.ofPattern("YYYY-MM-DDThh:mm:ssTZD", Locale.ENGLISH);
final String responseTimeStamp = "2020-12-16T19:20:30+01:00 UTC";
ZonedDateTime zdt = ZonedDateTime.parse(responseTimeStamp, dtf);
Which gives me the error
Exception in thread "main" java.lang.IllegalArgumentException: Unknown pattern letter: T at java.base/java.time.format.DateTimeFormatterBuilder.parsePattern(DateTimeFormatterBuilder.java:1815) at java.base/java.time.format.DateTimeFormatterBuilder.appendPattern(DateTimeFormatterBuilder.java:1712) at java.base/java.time.format.DateTimeFormatter.ofPattern(DateTimeFormatter.java:588) at learning/learning.SpringDemo.main(SpringDemo.java:21)

tl;dr
OffsetDateTime
.parse(
"2020-12-16T19:20:30+01:00 UTC"
.replace( " UTC" , "" )
)
.withZoneSameInstant(
ZoneId.of( "America/Edmonton" )
)
ISO 8601
Your input string:
2020-12-16T19:20:30+01:00 UTC
… nearly complies with the ISO 8601 standard for data-exchange date-time formats. To fully comply, delete the SPACE and UTC from the end. The +01:00 at the end means “one hour ahead of UTC", so the UTC at the end is redundant.
String input = "2020-12-16T19:20:30+01:00 UTC".replace( " UTC" , "" ) ;
Offset versus time zone
Parse as an OffsetDateTime because your input indicates small offset from UTC, not a time zone.
An offset is merely a number of hours-minutes-seconds ahead/behind the prime meridian of UTC. A time zone is much more. A time zone is a history of the past, present, and future changes to the offset used by the people of a particular region as decided by their politicians. A time zone has a name in format of Continent/Region, such as Europe/Paris and Africa/Tunis.
OffsetDateTime
So the other Answer’s suggestion to use ZonedDateTime for parsing is misguided as no time zone is indicated. Your input has only an offset, therefore use OffsetDateTime.
No need to specify a formatting pattern. Our modified input complies with ISO 8601, and the java.time classes use those standard formats by default when parsing/generating strings.
OffsetDateTime odt = OffsetDateTime.parse( input ) ;
LocalDateTime
You asked how to get a LocalDateTime. That class lacks any concept of offset or time zone. So beware, if you convert from OffsetDateTime, you are discarding valuable information.
So while I don’t recommend doing this, here is the code.
LocalDateTime ldt = odt.toLocalDateTime() ;
ZonedDateTime
You asked how to adjust into a time zone.
To adjust from our offset to a time zone, merely specify the desired time zone.
ZoneId z = ZoneId.of( "Asia/Tokyo" ) ;
ZonedDateTime zdt = odt.withZoneSameInstant( z ) ;

There are a few things wrong with your code. I suggest you to take a look at the DateTimeFormatter documentation.
YYYY -> This means week-based-year, you can have a look here to see the difference between year-of-era. So you should be using yyyy.
DD -> This means day-of-year, so December 16 is equal to 350. In your case you want to use dd, day-of-month.
T -> There isn't a pattern for T, so you can put it like a text to formmat you date 'T'
TZD -> I don't know what you are trying to use here and I couldn't find the patter +03:00 UTC, you can try to use O
So your final pattern should be "yyyy-MM-dd'T'HH:mm:ssO". It doens't work for UTC and I couldn't find it on ZoneId list, maybe because UTC is +00:00 already, so UTC+01:00 is equal to +01:00.
After a lot of working understanding the pattern, I found out that you are looking for ISO_ZONED_DATE_TIME, so you could just change your code like below:
DateTimeFormatter dtf = DateTimeFormatter.ISO_ZONED_DATE_TIME;
final String responseTimeStamp = "2020-12-16T19:20:30+01:00";
ZonedDateTime zdt = ZonedDateTime.parse(responseTimeStamp, dtf);

Converting string to date 2021-12-10T00:00:00 in java

I'm tring to convert this date string "2021-12-10T00:00:00" into a Date but when i deserialize it i got this.
Thu Dec 09 19:00:00 COT 2021.
it seems I'm losing one day.
Can anyone help me?
"startDate": "2021-12-10T00:00:00", and the result is this
2021-12-09T19:00:00.000-0500

tl;dr
java.util.Date.from(
LocalDateTime
.parse( "2021-12-10T00:00:00" )
.atZone(
ZoneId.of( "America/Bogota" )
)
.toInstant()
)
Details
I am guessing that you are using the terrible legacy date-time classes such as Date and Calendar. Don’t. Use only java.time class.
Your input string complies with the ISO 8601 standard for date-time formats. The java.time classes use these standard formats by default when parsing/generating strings. So no need to specify a formatting pattern.
LocalDateTime ldt = LocalDateTime.parse( "2021-12-10T00:00:00" ) ;
You said:
I'm tring to convert this date string "2021-12-10T00:00:00" into a Date
That does not make sense.
I assume by “Date”, you meant a java.until.Date. That legacy class represents a moment, a point on the timeline as seen in UTC, that is, with an offset from UTC of zero hours-minutes-seconds.
But your input lacks an indicator of time zone or offset. For example, if that string was meant to represent a moment as seen in UTC, it should have had a Z appended.
I am guessing that you assume the input was meant to represent a moment as seen in Colombia.
ZoneId z = ZoneId.of( "America/Bogota" ) ;
ZonedDateTime zdt = ldt.atZone( z ) ;
Now we have determined a moment as seen through the wall-clock time used by the people of Colombia.
Generally best to avoid java.util.Date class. But if you must, to interoperate with legacy code not yet updated to java.time, you can convert.
java.util.Date d = Date.from( zdt.toInstant() ) ;

Your start date is 2021-12-10 00:00:00 GMT+0 and your result is 2021-12-09 19:00:00 GMT-5. These times are the same. You can pass a Locale to your SimpleDataFormat constructor to be able to configure the used time zone.

Java - convert timestamp to Date and back to timestamp changes the date

I'm creating a string out from current time and I wanted to convert it to timestamp again, but the thing is, that it's subtracts 2 hours while converting.
This is the steps I'm doing -
DateTimeFormatterBuilder dateTimeFormatterBuilder = new DateTimeFormatterBuilder().append(DateTimeFormatter.ofPattern("uuuu-MM-dd")).appendLiteral(" ")
.append(DateTimeFormatter.ofPattern("HH:mm:ss")).parseLenient();
long ts = Clock.systemUTC().millis();
System.out.println(ts);
Instant instant = Instant.ofEpochMilli(ts);
ZonedDateTime zonedDateTime = ZonedDateTime.ofInstant(instant, ZoneOffset.UTC);
String str = zonedDateTime.format(dateTimeFormatterBuilder.toFormatter());
SimpleDateFormat simpleDateFormat = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
try {
long timestamp = simpleDateFormat.parse(str).getTime();
System.out.println(timestamp);
} catch (ParseException e) {
e.printStackTrace();
}
output -
1639065502667
1639058302000
(2021-12-09 15:58:22
2021-12-09 13:58:22)
why is the diff of the 2 hours?
how can I parse it so that the outputs will be equal?

tl;dr
Trying to understand Date, Calendar, and SimpleDateFormat is a huge waste of time. Use only their replacements, the java.time classes.
LocalDateTime // Represent a date with time-of-day, but lacking the context of a time zone or offset-from-UTC. So *not* a moment, *not* a point on the timeline.
.parse( // Parse your text string input into a date-time object.
"2021-12-09 15:58:22" // Your input of date with time-of-day but no offset/zone.
.replace( " " , "T" ) // Replace SPACE with a `T` to comply with standard ISO 8601 format.
) // Returns a `LocalDateTime` object.
.atZone( // Place that date-with-time into the context a particular time zone.
ZoneId.of( "America/Montreal" ) // Specify a time zone by its `Continent/Region` name.
) // Returns a `ZonedDateTime` object, a date with time-of-day as seen through the wall-clock time used by the people of a particular region. This *does* represent a moment, *is* a specific point on the timeline.
.toInstant() // Adjust from time zone to UTC (an offset of zero hours-minutes-seconds). This represents the very same moment as the `ZonedDateTime` object above, but as seen through a different wall-clock time.
.toEpochMilli() // Get a count of milliseconds from first moment of 1970 in UTC (1970-01-01T00:00Z) to the moment of our `Instant` object (& `ZonedDateTime` object).
See this code run live at IdeOne.com. There you can click fork to make a copy, alter, and run.
1639083502000
Avoid legacy date-time classes
Regarding your specific question about a two hour difference, the obvious cause would be a time zone difference.
Parsing incomplete information
Your parsing, SimpleDateFormat("yyyy-MM-dd HH:mm:ss") is something of a wild card. The result will be a java.util.Date object, which represents a moment, a date with time-of-day as seen with an offset of zero. But your input lacks an indicator of offset or zone. As commented by Sotirios Delimanolis, you are parsing with partial input, with incomplete information.
So some default zone/offset will be applied. I do not know what zone or offset in particular, because I do not care. That terrible class is tragically flawed, and should be avoided.
Also, yet another problem with the Date class is that its toString method has the anti-feature of applying the JVM’s current default time zone to adjust away from the UTC value represented by that class. Very confusing, as this creates the illusion of that zone being a part of Date object but it is not. As I said, a terrible class, tragically flawed.
Use only java.time classes instead.
java.time
Understand that a date with time-of-day is inherently ambiguous, is not a moment.
If you are tracking 4 PM on the 9th, we do not know if that means 4 PM in Tokyo Japan, 4 PM in Toulouse France, or 4 PM in Toledo Ohio US — three very different moments that happen several hours apart.
LocalDateTime ldt = LocalDateTime.parse( "2021-12-09 16:00:00" ) ;
To track a moment, a point on the timeline, you must place ne date-with-time in the context of an offset from UTC or of a time zone.
An offset is merely a number of hours-minutes-seconds ahead or behind the baseline of modern timekeeping, the prime meridian at Royal Observatory, Greenwich.
A time zone is much more. A time zone is a named history of the past, present, and future changes to the offset used by the people of a particular region. Each zone has a name in format of Continent/Region such as Europe/Berlin or Asia/Tokyo.
To track moments as seen in UTC, with an offset of zero, use Instant.
Instant instant = Instant.now() ;
To see that same moment through the wall-clock time used by people in a region, apply a ZoneId to get a ZonedDateTime.
ZoneId z = ZoneId.of( "America/Edmonton" ) ;
ZonedDateTime zdt = instant.atZone( z ) ;
As for your use of SimpleDateFormat, Date, and Calendar, don’t. Avoid these legacy date-time classes. Hey were designed by people who did not understand date-time handling. They were supplanted years ago by the modern java.time classes defined in JSR 310. Sun, Oracle, and the JCP community all gave up on those classes. I suggest you do the same.
In your code:
long ts = Clock.systemUTC().millis();
Instant instant = Instant.ofEpochMilli(ts);
That is the same as doing this:
Instant.now().truncatedTo( ChronoUnit.MILLISECONDS )
In your code:
ZonedDateTime zonedDateTime = ZonedDateTime.ofInstant(instant, ZoneOffset.UTC);
(A) When working with mere offsets rather than time zones, use OffsetDateTime class. The ZonedDateTime class is for working with time zones.
(B) A briefer way to adjust from Instant to a zoned moment was shown above:
myInstant.atZone( z )

The answer was only setting the timezone to UTC -
DateTimeFormatterBuilder dateTimeFormatterBuilder = new DateTimeFormatterBuilder().append(DateTimeFormatter.ofPattern("uuuu-MM-dd")).appendLiteral(" ")
.append(DateTimeFormatter.ofPattern("HH:mm:ss")).parseLenient();
long ts = Clock.systemUTC().millis();
System.out.println(ts);
Instant instant = Instant.ofEpochMilli(ts);
ZonedDateTime zonedDateTime = ZonedDateTime.ofInstant(instant, ZoneOffset.UTC);
String str = zonedDateTime.format(dateTimeFormatterBuilder.toFormatter());
SimpleDateFormat simpleDateFormat = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
try {
*******
simpleDateFormat.setTimeZone(TimeZone.getTimeZone("UTC"));
*******
long timestamp = simpleDateFormat.parse(str).getTime();
System.out.println(timestamp);
} catch (ParseException e) {
e.printStackTrace();
}

The dateTimeFomatter builder uses format without milliseconds and without timezone.
That's why the str value contain no information about them.
Then simpleDateFormat.parse(str) uses timezone of JVM which is UTC+02:00 in this case.
Trace what is going on:
Instant instant = Instant.now();
// => 2021-12-09 15:58:22.798 +00:00
String str = zonedDateTime.format(dateTimeFormatterBuilder.toFormatter());
// => "2021-12-09 15:58:22"
simpleDateFormat.parse(str);
// => 2021-12-09 15:58:22.000 +02:00
You just need to fix the pattern (add millis .SSS and timezone XXX parts) to make the results consistent as expected:
DateTimeFormatter.ofPattern("HH:mm:ss.SSSXXX")
// and something similar for SimpleDateFormat if needed
Parsing Instant from a custom formatted string.
This example shows how to parse Instant from serialized time assuming that there is a fixed timezone for all cases.
var serializedDateTime = "2020-01-01 10:20:30";
var zoneId = ZoneOffset.UTC; // may be any other zone
var format = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss");
var instant = LocalDateTime
.parse(serializedDateTime, format)
// LocalDateTime is unzoned, just representation of (date + time) numbers in a single object
.atZone(zoneId)
// apply a zone to get ZonedDateTime (point in space-time on Earth)
.toInstant();
// convert to Instant (the same point adjusted to UTC+00:00)

Let me guess, your timezone is UTC+2?
simpleDateFormat.parse(str) assume that your date in current system timezone, but it is in UTC.

Date in string to LocalDateTime conversion in java

DateTimes in different formats is always a problem for me. I have a date with the datatype string like "2021-07-25"
I want to convert this date to the datatype LocalDateTime in the format 2021-07-25T00:00:00.000-05:00. I have the get and set property like below
private LocalDateTime relationshipStatusDate;
public LocalDateTime getRelationshipStatusDate() {
return relationshipStatusDate;
}
public void setRelationshipStatusDate(LocalDateTime relationshipStatusDate) {
this.relationshipStatusDate = relationshipStatusDate;
}
public void setRelationshipStatusDate(String time) {
if (time != null) {
try {
long epochTime = Long.parseLong(time);
this.relationshipStatusDate = LocalDateTime.ofInstant(Instant.ofEpochMilli(epochTime), ZoneOffset.UTC);
} catch (NumberFormatException e){
this.relationshipStatusDate = LocalDateTime.parse(time, DateTimeFormatter.ISO_DATE_TIME);
}
}
}
and I am trying to format like below and its failing with an error "Unknown pattern letter T"
DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-ddT00:00:00.000-05:00");
LocalDateTime dateTime = LocalDateTime.parse(statusDate, formatter);

Your format won't be parsable as it doesn't support default values like T00:00:00.000-05:00. You could escape literals e.g. use 'T00:00...' but that would just make the parser ignore them.
Instead, if all you get is a date then only parse a date and add the default time after that, e.g. like this:
DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd")
LocalDate date = LocalDate.parse(statusDate, formatter );
LocalDateTime dateTime = date.atStartOfDay(); //"relative" representation as the absolute instant would require adding a timezone
ZonedDateTime zonedDT = date.atSTartOfDay(ZoneOffset.UTC); //"absolute" representation of instant
I want to convert this date to the datatype LocalDateTime in the format 2021-07-25T00:00:00.000-05:00.
Note the potential misconception here: LocalDateTime does NOT have a format. It represents a date and time (from a local point of reference - not in absolute terms as the timezone is missing) and provides access to individual fields such as day of month, day of week etc. but it is not formatted. Formatting is applied when you convert that date object to a string.

tl;dr
LocalDate // Represent a date-only value, without a time-of-day and without a time zone or offset-from-UTC.
.parse( "2021-07-25" ) // Parse a string in standard ISO 8601 format to instantiate a `LocalDate` object.
.atStartOfDay( // Determine the first moment of the day on that date in that zone. NB: The day does *not* always begin at 00:00, so never assume that time.
ZoneId.of( "America/Bogota" ) // Real time zones have a name in Continent/Region format. Never use 2-4 letter pseudo-zones such as `CST` or `IST`.
) // Returns a `ZonedDateTime` object, a moment in the context of a time zone.
.toOffsetDateTime() // Strips away the time zone information, leaving only a date with time-of-day in a particular offset. Returns an `OffsetDateTime` object.
.toString() // Generate text in standard ISO 8601 format.
2021-07-25T00:00-05:00
Details
LocalDateTime is the wrong class
You said:
datatype LocalDateTime in the format 2021-07-25T00:00:00.000-05:00
That is a contradiction. The -05:00 at the end of your string is an offset-from-UTC. A LocalDateTime object has no offset.
You seem to misunderstand the purpose of LocalDateTime. That class does not represent a moment as seen through the wall-clock time with an offset-from-UTC used by the people of a particular region. For that purpose, use OffsetDateTime, or preferably, ZonedDateTime.
Use documentation rather than intuition when programming with unfamiliar classes. To quote the Javadoc for LocalDateTime:
A date-time without a time-zone … such as 2007-12-03T10:15:30.
…
This class does not store or represent a time-zone. Instead, it is a description of the date, as used for birthdays, … It cannot represent an instant on the time-line …
Here is my chart to summarize the types. Three classes represent a moment, while LocalDateTime does not.
You said:
I have a date with the datatype string like "2021-07-25"
So use LocalDate to represent that value.
By default, the java.time classes use standard ISO 8601 format when parsing/generating text. So no need to specify a formatting pattern here, as your input complies with that standard.
LocalDate ld = LocalDate.parse( "2021-07-25" ) ;
You said:
I want to convert this date to … the format 2021-07-25T00:00:00.000-05:00
Your example there uses only a mere offset rather than a time zone. I suggest you use a time zone whenever possible.
An offset is simply a number of hours-minutes-seconds, nothing more. A time zone is much more. A time zone is a history of the past, present, and future changes to the offset used by people of a particular region, as decided by their politicians.
ZoneId
So specify your time zone using Continent/Region naming.
ZoneId z = ZoneId.of( "America/Cancun" );
ZonedDateTime
Let java.time determine the first moment of the day on that date as seen in that time zone. Be aware that the day does not always start at 00:00. So never hard-code that time-of-day; let java.time do the work here.
ZonedDateTime zdt = ld.atStartOfDay( z ); // Determine the first moment of the day as seen in that zone. Not always 00:00.
Generate text to represent the value inside our ZonedDateTime. The ZonedDateTime#toString method generates text in a format that wisely extends the ISO 8601 format by appending the name of the time zone in square brackets.
String output = zdt.toString();
2021-07-25T00:00-05:00[America/Cancun]
Pull all that code together.
LocalDate ld = LocalDate.parse( "2021-07-25" );
ZoneId z = ZoneId.of( "America/Cancun" );
ZonedDateTime zdt = ld.atStartOfDay( z ); // Determine the first moment of the day as seen in that zone. Not always 00:00.
String output = zdt.toString();
See this code run live at IdeOne.com.
2021-07-25T00:00-05:00[America/Cancun]
OffsetDateTime
If you insist on generating text in your stated format, while omitting the name of the time zone, use OffsetDateTime.
String output = zdt.toOffSetDateTime().toString() ;
All of these topics have been covered many times on Stack Overflow. Search to learn more.

How can i convert the windows timezone to Java Timezone?

I'm getting windows time zone as input, which i want to convert it to UTC time in Java. some windows time zone are not same as Java's.
For example:
Windows time zone = MPST(Malay Peninsula Standard Time)
equivalent Java time zone = SGT (Singapore Standard Time)
My input be like - 13/01/2020 10:46:10 MPST. so, when i'm trying to convert this date format to UTC, i'm getting java.text.ParseException: Unparseable date: "13/01/2020 10:46:10 MPST"
Please, help.
Thanks in advance

Avoid pseudo-codes for time zones
The 2-4 letter pseudo-codes often seen in the media are not actual time zones. Values such as IST, PST, CST, and your MPST are not standardized, and are not even unique!
Use only proper time zone names in the format of Continent/Region. See this possibly-outdated list at Wikipedia.
ZoneId z = ZoneId.of( "Asia/Kuala_Lumpur" ) ;
ZonedDateTime now = ZonedDateTime.now( z ) ;
020-01-15T08:02:26.612494+08:00[Asia/Kuala_Lumpur]
See that code run live at IdeOne.com.
The DateTimeFormatter class will try to guess the real time zone intended by the use of a 2-4 letter pseudo-zone. For example:
String input = "13/01/2020 10:46:10 PST" ;
DateTimeFormatter f = DateTimeFormatter.ofPattern( "dd/MM/uuuu HH:mm:ss zz") ;
ZonedDateTime zdt = ZonedDateTime.parse( input , f ) ;
System.out.println( "zdt.toString(): " + zdt ) ;
zdt.toString(): 2020-01-13T10:46:10-08:00[America/Los_Angeles]
But guessing MPST fails with a runtime error.
ISO 8601
In any such case as either PST or MPST, you really should go back to the source of the data. Educate those people about the ISO 8601 standard designed for the purpose of exchanging date-time values as text.
By the way, the toString method of the ZonedDateTime class seen above extends the ISO 8601 standard format by wisely appending the name of the time zone in square brackets.